/*******************************************************************************
 * Copyright IBM Corp. and others 2000
 *
 * This program and the accompanying materials are made available under
 * the terms of the Eclipse Public License 2.0 which accompanies this
 * distribution and is available at https://www.eclipse.org/legal/epl-2.0/
 * or the Apache License, Version 2.0 which accompanies this distribution
 * and is available at https://www.apache.org/licenses/LICENSE-2.0.
 *
 * This Source Code may also be made available under the following Secondary
 * Licenses when the conditions for such availability set forth in the
 * Eclipse Public License, v. 2.0 are satisfied: GNU General Public License,
 * version 2 with the GNU Classpath Exception [1] and GNU General Public
 * License, version 2 with the OpenJDK Assembly Exception [2].
 *
 * [1] https://www.gnu.org/software/classpath/license.html
 * [2] https://openjdk.org/legal/assembly-exception.html
 *
 * SPDX-License-Identifier: EPL-2.0 OR Apache-2.0 OR GPL-2.0-only WITH Classpath-exception-2.0 OR GPL-2.0-only WITH OpenJDK-assembly-exception-1.0
 *******************************************************************************/

#include <stddef.h>
#include "env/FrontEnd.hpp"
#include "compile/Compilation.hpp"
#include "env/jittypes.h"
#include "il/Block.hpp"
#include "il/ILOpCodes.hpp"
#include "il/ILOps.hpp"
#include "il/Node.hpp"
#include "il/Node_inlines.hpp"
#include "il/ResolvedMethodSymbol.hpp"
#include "il/TreeTop.hpp"
#include "il/TreeTop_inlines.hpp"
#include "infra/Cfg.hpp"
#include "infra/List.hpp"
#include "infra/CfgEdge.hpp"
#include "optimizer/Optimization_inlines.hpp"
#include "optimizer/Optimizer.hpp"
#include "optimizer/TransformUtil.hpp"
#include "optimizer/VirtualGuardHeadMerger.hpp"
#include "ras/DebugCounter.hpp"
#include "ras/Logger.hpp"
#include "infra/Checklist.hpp"

#define OPT_DETAILS "O^O VG HEAD MERGE: "

static bool isMergeableGuard(TR::Node *node)
{
    static char *mergeOnlyHCRGuards = feGetEnv("TR_MergeOnlyHCRGuards");
    return mergeOnlyHCRGuards ? node->isHCRGuard() : node->isNopableInlineGuard();
}

static bool isStopTheWorldGuard(TR::Node *node) { return node->isHCRGuard() || node->isOSRGuard(); }

/**
 * Recursive call to anchor nodes with a reference count greater than one prior to a treetop.
 *
 * @param comp Compilation object
 * @param node Node to potentially anchor
 * @param tt Treetop to anchor nodes before
 * @param checklist Checklist of visited nodes
 * @return Whether or not a nodes was anchored.
 */
static bool anchorCommonNodes(TR::Compilation *comp, TR::Node *node, TR::TreeTop *tt, TR::NodeChecklist &checklist)
{
    if (checklist.contains(node))
        return false;
    checklist.add(node);

    bool anchored = false;
    if (node->getReferenceCount() > 1) {
        tt->insertBefore(TR::TreeTop::create(comp, TR::Node::create(TR::treetop, 1, node)));
        anchored = true;
    } else {
        for (int i = 0; i < node->getNumChildren(); i++)
            anchored |= anchorCommonNodes(comp, node->getChild(i), tt, checklist);
    }

    return anchored;
}

/**
 * A runtime guard block may have monitor stores and privarg stores along with the guard
 * it self. This method will rearrange these stores and split the block, managing any
 * uncommoning necessary for eventual block order.
 *
 * The provided block will become the privarg block, containing any privarg stores and additonal
 * temps for uncommoning. It must be evaluated first. The returned block will contain monitor
 * stores and the guard. If no split is required, the provided block will be returned.
 *
 * @param comp Compilation object
 * @param block Block to manipulate
 * @param cfg Current CFG
 * @return The block containing the guard.
 */
static TR::Block *splitRuntimeGuardBlock(TR::Compilation *comp, TR::Block *block, TR::CFG *cfg)
{
    TR::NodeChecklist checklist(comp);
    TR::TreeTop *start = block->getFirstRealTreeTop();
    TR::TreeTop *guard = block->getLastRealTreeTop();
    TR::TreeTop *firstPrivArg = NULL;
    TR::TreeTop *firstMonitor = NULL;

    // Manage the unexpected case that monitors and priv args are reversed
    bool privThenMonitor = false;

    TR_ASSERT(isMergeableGuard(guard->getNode()), "last node must be guard %p", guard->getNode());

    // Search for privarg and monitor stores
    // Only commoned nodes under the guard are required to be anchored, due to the guard being
    // evaluted before the monitor stores later on
    bool anchoredTemps = false;
    for (TR::TreeTop *tt = start; tt && tt->getNode()->getOpCodeValue() != TR::BBEnd; tt = tt->getNextTreeTop()) {
        TR::Node *node = tt->getNode();

        if (node->getOpCode().hasSymbolReference() && node->getSymbol()->holdsMonitoredObject())
            firstMonitor = firstMonitor == NULL ? tt : firstMonitor;
        else if (node->chkIsPrivatizedInlinerArg()) {
            if (firstPrivArg == NULL) {
                firstPrivArg = tt;
                privThenMonitor = (firstMonitor == NULL);
            }
        } else if (isMergeableGuard(node))
            anchoredTemps |= anchorCommonNodes(comp, node, start, checklist);
        else
            TR_ASSERT(0, "Node other than monitor or privarg store %p before runtime guard", node);
    }

    // If there are monitors then privargs, they must be swapped around, such that all privargs are
    // evaluated first
    if (firstPrivArg && firstMonitor && !privThenMonitor) {
        TR::TreeTop *monitorEnd = firstPrivArg->getPrevTreeTop();
        firstMonitor->getPrevTreeTop()->join(firstPrivArg);
        guard->getPrevTreeTop()->join(firstMonitor);
        monitorEnd->join(guard);
    }

    // If there were temps created or privargs in the block, perform a split
    TR::TreeTop *split = NULL;
    if (firstPrivArg)
        split = firstMonitor ? firstMonitor : guard;
    else if (anchoredTemps)
        split = start;

    if (split)
        return block->split(split, cfg, true /* fixupCommoning */, false /* copyExceptionSuccessors */);
    return block;
}

/**
 * Collect direct loads in a node and its children, adding them to the provided BitVector.
 *
 * @param node The node to consider.
 * @param loadSymRefs BitVector of symbol reference numbers seen.
 * @param checklist Checklist of visited nodes.
 */
static void collectDirectLoads(TR::Node *node, TR_BitVector &loadSymRefs, TR::NodeChecklist &checklist)
{
    if (checklist.contains(node))
        return;
    checklist.add(node);

    if (node->getOpCode().isLoadVarDirect())
        loadSymRefs.set(node->getSymbolReference()->getReferenceNumber());

    for (int i = 0; i < node->getNumChildren(); i++)
        collectDirectLoads(node->getChild(i), loadSymRefs, checklist);
}

/**
 * Search for direct loads in the taken side of a guard
 *
 * @param firstBlock The guard's branch destination
 * @param coldPathLoads BitVector of symbol reference numbers for any direct loads seen until the merge back to mainline
 */
static void collectColdPathLoads(TR::Block *firstBlock, TR_BitVector &coldPathLoads, TR::Compilation *comp)
{
    TR_Stack<TR::Block *> blocksToCheck(comp->trMemory(), 8, false, stackAlloc);
    blocksToCheck.push(firstBlock);
    TR::NodeChecklist checklist(comp);

    coldPathLoads.empty();
    while (!blocksToCheck.isEmpty()) {
        TR::Block *block = blocksToCheck.pop();

        for (TR::TreeTop *tt = block->getFirstRealTreeTop(); tt->getNode()->getOpCodeValue() != TR::BBEnd;
             tt = tt->getNextTreeTop())
            collectDirectLoads(tt->getNode(), coldPathLoads, checklist);

        // Search for any successors that have not merged with the mainline
        for (auto itr = block->getSuccessors().begin(), end = block->getSuccessors().end(); itr != end; ++itr) {
            TR::Block *dest = (*itr)->getTo()->asBlock();
            if (dest != comp->getFlowGraph()->getEnd() && dest->getPredecessors().size() == 1)
                blocksToCheck.push(dest);
        }
    }
}

/**
 * Check for nodes that have shadow symref's
 *
 * @param node to check
 * @param checklist of nodes already checked for shadows
 */
static bool checkForShadow(TR::Node *node, TR::NodeChecklist &checklist)
{
    if (!checklist.contains(node)) {
        checklist.add(node);
        if (node->getOpCode().hasSymbolReference() && node->getSymbol()->isShadow())
            return true;
        for (int i = 0; i < node->getNumChildren(); i++) {
            if (checkForShadow(node->getChild(i), checklist))
                return true;
        }
    }
    return false;
}

static bool safeToMoveGuard(TR::Block *destination, TR::TreeTop *guardCandidate, TR::TreeTop *branchDest,
    TR_BitVector &privArgSymRefs, TR::Compilation *comp)
{
    static char *disablePrivArgMovement = feGetEnv("TR_DisableRuntimeGuardPrivArgMovement");
    TR::TreeTop *start = destination ? destination->getExit() : comp->getStartTree();
    if (guardCandidate->getNode()->isHCRGuard()) {
        for (TR::TreeTop *tt = start; tt && tt != guardCandidate; tt = tt->getNextTreeTop()) {
            if (tt->getNode()->canGCandReturn())
                return false;
        }
    } else if (guardCandidate->getNode()->isOSRGuard()) {
        for (TR::TreeTop *tt = start; tt && tt != guardCandidate; tt = tt->getNextTreeTop()) {
            if (comp->isPotentialOSRPoint(tt->getNode(), NULL, true))
                return false;
        }
    } else {
        TR::NodeChecklist checklist(comp);
        privArgSymRefs.empty();
        for (TR::TreeTop *tt = start; tt && tt != guardCandidate; tt = tt->getNextTreeTop()) {
            // It's safe to move the guard if there are only priv arg stores and live monitor stores
            // ahead of the guard
            if (tt->getNode()->getOpCodeValue() != TR::BBStart && tt->getNode()->getOpCodeValue() != TR::BBEnd
                && !tt->getNode()->chkIsPrivatizedInlinerArg()
                && !(tt->getNode()->getOpCode().hasSymbolReference()
                    && tt->getNode()->getSymbol()->holdsMonitoredObject())
                && !tt->getNode()->isNopableInlineGuard())
                return false;

            if (tt->getNode()->chkIsPrivatizedInlinerArg()
                && (disablePrivArgMovement ||
                    // If the priv arg is not for this guard
                    (guardCandidate->getNode()->getInlinedSiteIndex() > -1 &&
                        // if priv arg store does not have the same inlined site index as the guard's caller, that means
                        // it is not a priv arg for this guard, then we cannot move the guard and its priv args up
                        // across other calls' priv args
                        tt->getNode()->getInlinedSiteIndex()
                            != comp->getInlinedCallSite(guardCandidate->getNode()->getInlinedSiteIndex())
                                   ._byteCodeInfo.getCallerIndex())))
                return false;

            if (tt->getNode()->chkIsPrivatizedInlinerArg())
                privArgSymRefs.set(tt->getNode()->getSymbolReference()->getReferenceNumber());

            if (tt->getNode()->isNopableInlineGuard() && tt->getNode()->getBranchDestination() != branchDest)
                return false;

            // Moving a guard can allow an unguarded load to occur which can expose an invalid reference to the GC.
            // Aborting in the presence of shadow symrefs avoids this possibility.
            if (checkForShadow(tt->getNode(), checklist))
                return false;
        }
    }
    return true;
}

static void moveBlockAfterDest(TR::CFG *cfg, TR::Block *toMove, TR::Block *dest)
{
    // Step1 splice out toMove
    TR::Block *toMovePrev = toMove->getPrevBlock();
    TR::Block *toMoveSucc = toMove->getNextBlock();

    toMovePrev->getExit()->join(toMoveSucc->getEntry());

    // Step 2 splice toMove in after dest
    TR::Block *destNext = dest->getNextBlock();
    dest->getExit()->join(toMove->getEntry());
    toMove->getExit()->join(destNext->getEntry());

    cfg->addEdge(toMove, destNext);
    cfg->addEdge(dest, toMove);
    cfg->removeEdge(dest, destNext);

    cfg->addEdge(toMovePrev, toMoveSucc);
    cfg->removeEdge(toMovePrev, toMove);
    cfg->removeEdge(toMove, toMoveSucc);
}

// This opt tries to reduce merge backs from cold code that are the result of inliner
// generated nopable virtual guards
// It looks for one basic pattern
//
// guard1 -> cold1
// BBEND
// BBSTART
// guard2 -> cold2
//
// If guard1 is the guard for a method which calls the method guard2 protects or cold1 is
// a predecessor of cold2 (a situation commonly created by virtual guard tail splitter) we
// can transform the guards as follows:
//
// guard1 -> cold1
// BBEND
// BBSTART
// guard2 -> cold1
//
// This is safe because there are no trees between the guards and calling the caller will
// result in the call to the callee if we need to patch guard2. cold2 and its mergebacks
// can then be eliminated
//
// In addition this opt will try to move guard2 up from the end of a block to the
// start of the block. We can do this if guard2 is an HCR guard and there is no GC point
// between BBSTART and guard2 since HCR is a stop-the-world event.
//
// Finally, there is a simple tail splitting step run before the analysis of a guard if we
// detect that the taken side of the guard merges back in the next block - this happens
// for some empty methods and is common for Object.<init> at the top of constructors.
int32_t TR_VirtualGuardHeadMerger::perform()
{
    static char *disableVGHeadMergerTailSplitting = feGetEnv("TR_DisableVGHeadMergerTailSplitting");
    TR::CFG *cfg = comp()->getFlowGraph();
    OMR::Logger *log = comp()->log();

    // Cache the loads for the outer guard's cold path
    TR_BitVector coldPathLoads(comp()->trMemory()->currentStackRegion());
    TR_BitVector privArgSymRefs(comp()->trMemory()->currentStackRegion());
    bool evaluatedColdPathLoads = false;

    for (TR::Block *block = optimizer()->getMethodSymbol()->getFirstTreeTop()->getNode()->getBlock(); block;
         block = block->getNextBlock()) {
        TR::Node *guard1 = block->getLastRealTreeTop()->getNode();

        if (isMergeableGuard(guard1)) {
            logprintf(trace(), log, "Found mergeable guard in block_%d\n", block->getNumber());
            TR::Block *cold1 = guard1->getBranchDestination()->getEnclosingBlock();

            // check for an immediate merge back from the cold block and
            // tail split one block if we can - we only handle splitting a block
            // ending in a fallthrough, a branch or a goto for now for simplicity
            if (!disableVGHeadMergerTailSplitting && (cold1->getSuccessors().size() == 1)
                && cold1->hasSuccessor(block->getNextBlock())
                && cold1->getLastRealTreeTop()->getNode()->getOpCode().isGoto()) {
                // TODO handle moving code earlier in the block down below the guard
                // tail split
                if ((block->getNextBlock()->getSuccessors().size() == 1
                        || (block->getNextBlock()->getSuccessors().size() == 2
                            && block->getNextBlock()->getLastRealTreeTop()->getNode()->getOpCode().isBranch()))
                    && performTransformation(comp(),
                        "%sCloning block_%d and placing clone after block_%d to reduce HCR guard nops\n", OPT_DETAILS,
                        block->getNextBlock()->getNumber(), cold1->getNumber()))
                    tailSplitBlock(block, cold1);
            }

            // guard motion is fairly complex but what we want to achieve around guard1 is a sequence
            // of relocated privarg blocks, followed by a sequence of runtime patchable guards going to
            // guard1's cold block, followed by a sequence of stop-the-world guards going to guard1's
            // cold block
            //
            // The following code is to setup the various insert points based on the following diagrams
            // of basic blocks:
            //
            // start:               setup:                          end result after moving runtime guard'
            //                       |       |                        +-------+ <-- privargIns
            //                       |       | <-- privargIns             |
            //                       +-------+ <-- runtimeIns         +-------+
            //   |       |               |                            | Guard'|
            //   |       |               V                            +-------+ <-- runtimeIns
            //   +-------+           +-------+                            |
            //   | Guard |           | Guard |                            V
            //   +-------+           +-------+ <-- HCRIns             +-------+
            //       |        ===>       |                    ===>    | Guard |
            //       V                   V                            +-------+ <-- HCRIns
            //   +-------+           +-------+                            |
            //   |       |           |       |                            V
            //   |       |           |       |                        +-------+
            //
            // Note we always split the block - this may create an empty block but preserves the incoming
            // control flow we leave the rest to block extension to fix later

            block = block->split(block->getLastRealTreeTop(), cfg, true, false);
            TR::Block *privargIns = block->getPrevBlock();
            TR::Block *runtimeIns = block->getPrevBlock();
            TR::Block *HCRIns = block;

            // New outer guard so cold paths must be evaluated
            evaluatedColdPathLoads = false;

            // scan for candidate guards to merge with guard1 identified above
            for (TR::Block *nextBlock = block->getNextBlock(); nextBlock; nextBlock = nextBlock->getNextBlock()) {
                if (block->nodeIsRemoved() || nextBlock->nodeIsRemoved()) {
                    logprintf(trace(), log, "block block_%d %p (%d) or nextBlock block_%d %p (%d) has been removed\n",
                        block->getNumber(), block, block->nodeIsRemoved(), nextBlock->getNumber(), nextBlock,
                        nextBlock->nodeIsRemoved());
                    break;
                }

                if (!(nextBlock->getPredecessors().size() == 1) || !nextBlock->hasPredecessor(block)) {
                    break;
                }

                TR::TreeTop *guard2Tree = NULL;
                if (isMergeableGuard(nextBlock->getFirstRealTreeTop()->getNode())) {
                    guard2Tree = nextBlock->getFirstRealTreeTop();
                } else if (isMergeableGuard(nextBlock->getLastRealTreeTop()->getNode())) {
                    guard2Tree = nextBlock->getLastRealTreeTop();
                } else
                    break;

                TR::Node *guard2 = guard2Tree->getNode();
                TR::Block *guard2Block = nextBlock;

                // It is not possible to shift an OSR guard unless the destination is already an OSR point
                // as the necessary OSR state will not be available
                if (guard2->isOSRGuard() && !guard1->isOSRGuard())
                    break;

                TR::Block *insertPoint = isStopTheWorldGuard(guard2) ? HCRIns : runtimeIns;
                if (!safeToMoveGuard(insertPoint, guard2Tree, guard1->getBranchDestination(), privArgSymRefs, comp()))
                    break;

                // now we figure out if we can redirect guard2 to guard1's cold block
                // ie can we do the head merge
                TR::Block *cold2 = guard2->getBranchDestination()->getEnclosingBlock();
                if (guard1->getInlinedSiteIndex() == guard2->getInlinedSiteIndex()) {
                    logprintf(trace(), log,
                        "  Guard1 [%p] is guarding the same call as Guard2 [%p] - proceeding with guard merging\n",
                        guard1, guard2);
                } else if (guard2->getInlinedSiteIndex() > -1
                    && guard1->getInlinedSiteIndex()
                        == comp()->getInlinedCallSite(guard2->getInlinedSiteIndex())._byteCodeInfo.getCallerIndex()) {
                    logprintf(trace(), log,
                        "  Guard1 [%p] is the caller of Guard2 [%p] - proceeding with guard merging\n", guard1, guard2);
                } else if ((cold1->getSuccessors().size() == 1) && cold1->hasSuccessor(cold2)) {
                    logprintf(trace(), log,
                        "  Guard1 cold destination block_%d has guard2 cold destination block_%d as its only successor "
                        "- proceeding with guard merging\n",
                        cold1->getNumber(), cold2->getNumber());
                } else {
                    logprintf(trace(), log,
                        "  Cold1 block_%d and cold2 block_%d of guard2 [%p] in unknown relationship - abandon the "
                        "merge attempt\n",
                        cold1->getNumber(), cold2->getNumber(), guard2);
                    break;
                }

                // Runtime guards will shift their privargs, so it is necessary to check such a move is safe
                // This is possible if a privarg temp was recycled for the inner call site, with a prior use as an
                // argument for the outer call site. As the privargs for the inner call site must be evaluated before
                // both guards, this would result in the recycled temp holding the incorrect value if the guard is ever
                // taken.
                if (!isStopTheWorldGuard(guard2)) {
                    if (!evaluatedColdPathLoads) {
                        collectColdPathLoads(cold1, coldPathLoads, comp());
                        evaluatedColdPathLoads = true;
                    }

                    if (coldPathLoads.intersects(privArgSymRefs)) {
                        logprintf(trace(), log,
                            "  Recycled temp live in cold1 block_%d and used as privarg before guard2 [%p] - stop "
                            "guard merging",
                            cold1->getNumber(), guard2);
                        break;
                    }
                }

                if (!performTransformation(comp(),
                        "%sRedirecting %s guard [%p] in block_%d to parent guard cold block_%d\n", OPT_DETAILS,
                        isStopTheWorldGuard(guard2) ? "stop the world" : "runtime", guard2, guard2Block->getNumber(),
                        cold1->getNumber()))
                    continue;

                if (guard2->getBranchDestination() != guard1->getBranchDestination())
                    guard2Block->changeBranchDestination(guard1->getBranchDestination(), cfg);

                // changeBranchDestination tries to remove unreachable blocks after the removal of the old edge
                // from guard2 to cold2. Rarely, a previous transformation in this pass could have made
                // guard2Block unreachable without removing it, in which case it might have been removed just now.
                // Normally, if all relevant blocks are removed, later moveBlockAfterDest will not cause any issue
                // since it will be just moving around all unreachable blocks. However, in an even more rare case,
                // if some of the blocks are removed and some of them are not (eg, guard2Block and the previous block
                // of guard2Block are removed but the next block of guard2Block is still valid), moveBlockAfterDest
                // could end up joining an invalid/removed block with a valid block. Therefore, if guard2Block
                // is no longer valid, it should not proceed.
                if (guard2Block->nodeIsRemoved()) {
                    logprintf(trace(), log, "guard2Block block_%d %p has been removed after changeBranchDestination\n",
                        guard2Block->getNumber(), guard2Block);
                    break;
                }

                if (guard2Tree != guard2Block->getFirstRealTreeTop()) {
                    cfg->setStructure(NULL);

                    // We should leave code ahead of an HCR guard in place because:
                    // 1, it might have side effect to runtime guards after it, moving it up might cause us to falsely
                    // merge
                    //    the subsequent runtime guards
                    // 2, it might contain live monitor, moving it up above a guard can affect the monitor's live range
                    if (!isStopTheWorldGuard(guard2)) {
                        // the block created above guard2 contains only privarg treetops or monitor stores if
                        // guard2 is a runtime-patchable guard and is safe to merge. We need to move the priv
                        // args up to the runtime insert point and leave the monitor stores in place
                        // It's safe to do so because there is no data dependency between the monitor store and
                        // the priv arg store, because the priv arg store does not load the value from the temp
                        // holding the monitored object

                        // Split priv arg stores from monitor stores
                        // Monitor store is generated for the caller of the method guard2 protects, so should appear
                        // before priv arg stores for the method guard2 protects
                        TR::Block *privargBlock = guard2Block;
                        guard2Block = splitRuntimeGuardBlock(comp(), guard2Block, cfg);
                        if (privargBlock != guard2Block) {
                            logprintf(trace(), log, "  Moving privarg block_%d after block_%d\n",
                                privargBlock->getNumber(), privargIns->getNumber());

                            moveBlockAfterDest(cfg, privargBlock, privargIns);

                            if (HCRIns == privargIns)
                                HCRIns = privargBlock;
                            if (runtimeIns == privargIns)
                                runtimeIns = privargBlock;
                            privargIns = privargBlock;

                            // refresh the insertPoint since it could be stale after the above updates
                            insertPoint = runtimeIns;
                        }
                    }

                    guard2Block = guard2Block->split(guard2Tree, cfg, true, false);
                    logprintf(trace(), log, "  Created new block_%d to hold guard [%p] from block_%d\n",
                        guard2Block->getNumber(), guard2, guard2Block->getNumber());
                }

                if (insertPoint != guard2Block->getPrevBlock()) {
                    TR::DebugCounter::incStaticDebugCounter(comp(),
                        TR::DebugCounter::debugCounterName(comp(), "headMerger/%s_%s/(%s)",
                            isStopTheWorldGuard(guard1) ? "stop the world" : "runtime",
                            isStopTheWorldGuard(guard2) ? "stop the world" : "runtime", comp()->signature()));
                    cfg->setStructure(NULL);

                    block = nextBlock = guard2Block->getPrevBlock();
                    logprintf(trace(), log, "  Moving guard2 block block_%d after block_%d\n", guard2Block->getNumber(),
                        insertPoint->getNumber());

                    moveBlockAfterDest(cfg, guard2Block, insertPoint);

                    if (HCRIns == insertPoint)
                        HCRIns = guard2Block;
                    if (runtimeIns == insertPoint)
                        runtimeIns = guard2Block;
                } else {
                    block = guard2Block;
                }
                guard1 = guard2;
            }
        }
    }
    return 1;
}

// This function splits a single succeesor block following an guard and is used to
// do the following transform
//    block - cold1         block - cold1
//      \     /        =>     |       |
//     nextBlock           nextBlock nextBlock' (called tailSplitBlock below)
//         |                  \      /
//        ...                   ...
void TR_VirtualGuardHeadMerger::tailSplitBlock(TR::Block *block, TR::Block *cold1)
{
    TR::CFG *cfg = comp()->getFlowGraph();
    cfg->setStructure(NULL);
    TR_BlockCloner cloner(cfg);
    TR::Block *tailSplitBlock = cloner.cloneBlocks(block->getNextBlock(), block->getNextBlock());
    tailSplitBlock->setFrequency(cold1->getFrequency());
    if (cold1->isCold())
        tailSplitBlock->setIsCold();

    // physically put the block after cold1 since we want cold1 to fall through
    tailSplitBlock->getExit()->join(cold1->getExit()->getNextTreeTop());
    cold1->getExit()->join(tailSplitBlock->getEntry());

    // remove cold1's goto
    TR::TransformUtil::removeTree(comp(), cold1->getExit()->getPrevRealTreeTop());

    // copy the exception edges
    for (auto e = block->getNextBlock()->getExceptionSuccessors().begin();
         e != block->getNextBlock()->getExceptionSuccessors().end(); ++e)
        cfg->addExceptionEdge(tailSplitBlock, (*e)->getTo());

    cfg->addEdge(cold1, tailSplitBlock);
    // lastly fix up the exit of tailSplitBlock
    TR::Node *tailSplitEnd = tailSplitBlock->getExit()->getPrevRealTreeTop()->getNode();
    if (tailSplitEnd->getOpCode().isGoto()) {
        tailSplitEnd->setBranchDestination(
            block->getNextBlock()->getLastRealTreeTop()->getNode()->getBranchDestination());
        cfg->addEdge(tailSplitBlock, block->getNextBlock()->getSuccessors().front()->getTo());
    } else if (tailSplitEnd->getOpCode().isBranch()) {
        TR::Block *gotoBlock = TR::Block::createEmptyBlock(tailSplitEnd, comp(), cold1->getFrequency());
        if (cold1->isCold())
            gotoBlock->setIsCold(true);
        gotoBlock->getExit()->join(tailSplitBlock->getExit()->getNextTreeTop());
        tailSplitBlock->getExit()->join(gotoBlock->getEntry());
        cfg->addNode(gotoBlock);

        gotoBlock->append(TR::TreeTop::create(comp(),
            TR::Node::create(tailSplitEnd, TR::Goto, 0, block->getNextBlock()->getExit()->getNextTreeTop())));
        cfg->addEdge(tailSplitBlock, gotoBlock);
        cfg->addEdge(tailSplitBlock,
            tailSplitBlock->getLastRealTreeTop()->getNode()->getBranchDestination()->getEnclosingBlock());
        cfg->addEdge(gotoBlock, block->getNextBlock()->getNextBlock());
    } else if (!tailSplitEnd->getOpCode().isReturn() && !tailSplitEnd->getOpCode().isJumpWithMultipleTargets()
        && tailSplitEnd->getOpCodeValue() != TR::athrow
        && !(tailSplitEnd->getNumChildren() >= 1 && tailSplitEnd->getFirstChild()->getOpCodeValue() == TR::athrow)) {
        tailSplitBlock->append(TR::TreeTop::create(comp(),
            TR::Node::create(tailSplitEnd, TR::Goto, 0, block->getNextBlock()->getExit()->getNextTreeTop())));
        cfg->addEdge(tailSplitBlock, block->getNextBlock()->getNextBlock());
    } else {
        for (auto e = block->getNextBlock()->getSuccessors().begin(); e != block->getNextBlock()->getSuccessors().end();
             ++e)
            cfg->addEdge(tailSplitBlock, (*e)->getTo());
    }
    cfg->removeEdge(cold1, block->getNextBlock());

    optimizer()->setUseDefInfo(NULL);
    optimizer()->setValueNumberInfo(NULL);
}

const char *TR_VirtualGuardHeadMerger::optDetailString() const throw() { return "O^O VIRTUAL GUARD HEAD MERGER: "; }
